Basic lens assembly for series of zoom objectives of different varifocal ratios

ABSTRACT

A zoom objective is disclosed which consists of a varifocal front lens group and a fixed rear lens group, the front lens group comprising a stationary first component of positive refractivity, axially shiftable second and third components of negative refractivity, and a stationary fourth component of positive refractivity separated from the rear lens group by a reflex prism adjoining a diaphragm space. The assembly of third and fourth components, prism and rear lens group can be selectively combined with various first and second components to provide zoom objectives of different varifocal ratios.

FIELD OF THE INVENTION

Our present invention relates to an optical system of the pancratic type, more often referred to as a varifocal or zoom objective, and in particular to a lens assembly that can be complemented by a removable attachment in order to form such a varifocal system.

BACKGROUND OF THE INVENTION

Varifocal objectives as used in photographic or cinematographic zoom cameras, e.g. those designed for motion-picture film of the Super-8 type, conventionally consist of a four-component front group of adjustable magnification ratio juxtaposed with a rear group composed of several air-spaced lenses, the rear group constituting a fixed-focus basic objective to which the front group is permanently or removably attached. The two groups are generally separated by a diaphragm space which may also contain a reflex prism.

The varifocal front group usually consists of a stationary positive first component (which may be axially adjustable for focusing purposes), an axially shiftable negative second component which may be referred to as a variator, an axially shiftable negative third component which may be termed a compensator, and a stationary positive fourth component next to the diaphragm space.

By a suitably correlated axial displacement of the two negative components, the overall focal length of the system can be changed between a maximum value f_(max) and a minimum value f_(min) without any dislocation of the image plane of the objective.

Different varifocal ratios f_(max) : f_(min) can be obtained with the same basic objective and the same image-side half of the adjustable front group, i.e. the third and fourth components of that group, by substituting different lenses or lens combinations for the first two components of that group. Thus, only the object-side half of the front group of such an optical system needs to be interchangeable in order to provide a set of varifocal objectives of different zoom ranges.

OBJECTS OF THE INVENTION

The general aim of our invention is to provide a lens assembly for an interchangeable optical system of this type, constituting a basic objective and an adjoining half of a varifocal front group, which can be supplemented by two further components (one stationary, the other movable) to form a well-corrected objective with a selected zoom range.

Another object of this invention is to provide an optical system of the type referred to which is of relatively simple construction and therefore inexpensive to manufacture.

SUMMARY OF THE INVENTION

We have found, in accordance with the present invention, that a lens assembly satisfying these requirements consists of an axially shiftable lens in the form of a negative meniscus with a convex rear surface, an adjoining axially fixed biconvex lens preceding a diaphragm space, and a basic objective composed of four air-spaced lens members, i.e. two biconvex lenses, a biconcave lens and another biconvex lens.

These six lenses, whose parameters will be specified hereinafter, may form an invariable part of a zoom objective of a Super-8 motion-picture camera, for example, to be selectively complemented by interchangeable attachments comprising each a set of lenses which constitute the stationary front component and the first axially shiftable component of the varifocal group of such an objective.

BRIEF DESCRIPTION OF THE DRAWING

The invention will now be described in detail with reference to the accompanying drawing in which:

FIG. 1 diagrammatically shows the layout of a varifocal objective, known per se, to which the invention is applicable; and

FIGS. 2 - 5 show four zoom objectives with different varifocal ratios sharing a common lens assembly according to my invention.

SPECIFIC DESCRIPTION

As illustrated in FIG. 1, a zoom objective of conventional type comprises a stationary positive first component I, an axially shiftable negative second component II, another axially shiftable negative third component III, a stationary positive fourth component IV and a rear lens group or basic objective V, components IV and V being separated by a space containing a diaphragm D. Graphs (a), (b) and (c) of FIG. 1 respectively show a wide-angle position with overall focal length f_(min), an intermediate position with overall focal length f_(med) and a telephoto position with overall focal length f_(max).

In accordance with our present invention, components III, IV and V are common to different zoom objectives of progressively increasing varifocal ratios shown in FIGS. 2 - 5. These varifocal ratios have the approximate values of 4:1, 6:1, 8:1 and 10:1 with the specific lens parameters given below.

The following Table O lists the radii of curvature r₆ ' - r₁₁ ', the axial thicknesses d₆ - d₁₁, the refractive indices n_(d) and the Abbe numbers ν_(d) of a lens L₆ constituting the component III, a lens L₇ constituting the component IV and four lenses L₈ - L₁₁ constituting the component V.

Table O also specifies an air space s₇ separating the lens L₇ from an adjoining reflex prism P, two air spaces s₈ ' and s₈ " on opposite sides of diaphragm D between prism P and lens L₈, and air spaces s₉ - s₁₁ separating the lens members of component V. The air space s₆ intervening between lenses L₆ and L₇ is variable and meaningless in the absence of a front attachment comprising the first two components of the system.

                  TABLE O                                                          ______________________________________                                                                n.sub.d                                                                              ν.sub.d                                        ______________________________________                                                     r.sub.6 ' = -0.867                                                 L.sub.6                  d.sub.6 = 0.05                                                                           1.784 43.9                                              r.sub.6 " = -2.201                                                             r.sub.7 ' = +1.399                                                 L.sub.7                  d.sub.7  = 0.120                                                                         1.691 54.7                                              r.sub.7 " = -1.745                                                                          s.sub.8 ' = 0.045                                                 r.sub.p ' = ∞                                                P                        d.sub.p  = 0.249                                                                         1.517 64.2                                              r.sub.p " = ∞                                                                         s.sub.8 " = 0.90                                                  r.sub.8 ' = +2.187                                                 L.sub.8                  d.sub.8  = 0.105                                                                         1.744 44.8                                              r.sub.8 " = -3.174                                                                          s.sub.9  = 0.025                                                  r.sub.9 ' = +0.740                                                 L.sub.9                                                                                                 d.sub.9  = 0.120                                                                         1.744 44.8                                              r.sub.9 " = ∞                                                                         s.sub.10  = 0.037                                                 r.sub.10 ' = -0.986                                                L.sub.10                 d.sub.10  = 0.349                                                                        1.847 23.8                                              r.sub.10 " = +0.574                                                                         s.sub.11  = 0.060                                                 r.sub.11 ' = +1.692                                                L.sub.11                 d.sub.11  = 0.234                                                                        1.735 41.4                                              r.sub.11 " = -0.593                                                ______________________________________                                    

In the foregoing and subsequent Tables the numerical values for the radii, thicknesses and separations are based on a value of unity for an intermediate focal length f_(med).

In FIG. 2 a first component IA and a second component IIA complement the lens assembly L₆ - L₁₁ to form an objective whose overall focal length ranges between f_(min) = 0.449 and f_(max) = 1.798. Component IA consists of three air-spaced singlets, i.e. a negative lens L₁ and two positive lenses L₂, L₃. Component IIA consists of a singlet L₄ and a doublet L₅ ', L₅ " with a positively refracting cemented surface of radius r₅. The radii r₁ ' - r₅ ", thicknesses d₁ - d₅ " and separations s₁ - s₄ of lenses L₁ - L₅ " are listed, together with their refractive indices n_(d) and Abbe numbers ν_(d), in the following Table A which also gives the variable air space s₅ separating components IIA and III from each other in the three representative positions shown in FIG. 1. The invariable sum of air spaces s₃, s₅, s₆ has likewise been specified.

                  TABLE A                                                          ______________________________________                                                                n.sub.d                                                                              ν.sub.d                                        ______________________________________                                                     r.sub.1 ' = +3.102                                                 L.sub.1                  d.sub.1  = 0.075                                                                         1.805 25.4                                              r.sub.1 " = +1.499                                                                          s.sub.1  = 0.075                                                  r.sub.2 ' = +1.620                                                 L.sub.2                  d.sub.2  = 0.252                                                                         1.603 60.6                                              r.sub.2 " = ∞                                                                         s.sub.2  = 0.005                                                  r.sub.3 ' = +1.620                                                 L.sub.3                  d.sub.3  = 0.252                                                                         1.603 60.0                                              r.sub.3 " = ∞                                                                         0.030 f.sub.min                                                   s.sub.3 (variable)                                                                           0.641 f.sub.med                                                               0.947 f.sub.max                                                   r.sub.4 ' = +3.764                                                 L.sub.4                  d.sub.4  = 0.050                                                                         1.713 53.8                                              r.sub.4 " = +0.571                                                                          s.sub.4  = 0.167                                                  r.sub.5 ' = -0.722                                                 L.sub.5 '                d.sub.5 ' = 0.050                                                                        1.622 53.2                                              r.sub.5  = +0.376                                                  L.sub.5 "                d.sub.5 " = 0.132                                                                        1.805 25.4                                              r.sub.5 " = -6.448                                                                          1.009 f.sub.min                                                   s.sub.5 (variable)                                                                           0.300 f.sub.med                                                               0.091 f.sub.max                                                 s.sub.3 + s.sub.5 + s.sub.6 = 1.109                                  ______________________________________                                    

FIG. 3 shows a front attachment with components IB and IIB yielding an increased varifocal ratio. Component 1B differs from component IA by being a doublet consisting of lenses L₁ ' and L₁ " of thicknesses d₁ ' and d₂ ", respectively. The cemented surface of this doublet, having a radius r₁, is of negative refractivity. The corresponding parameters are given in the following Table.

                  TABLE B                                                          ______________________________________                                                                n.sub.d                                                                              ν.sub.d                                        ______________________________________                                                     r.sub.1 ' = +6.077                                                 L.sub.1 '                d.sub.1 ' = 0.095                                                                        1.805 25.4                                              r.sub.1  = +1.922                                                  L.sub.1 "                d.sub.1 " = 0.369                                                                        1.620 60.3                                              r.sub.1 " = ∞                                                                         s.sub.1  = 0.005                                                  r.sub.2 ' = +2.692                                                 L.sub.2                  d.sub.2  = 0.100                                                                         1.658 50.9                                              r.sub.2 " = +4.940                                                                          s.sub.2  = 0.005                                                  r.sub.3 ' = +1.838                                                 L.sub.3                  d.sub.3  = 0.219                                                                         1.658 50.9                                              r.sub.3 " = +8.546                                                                          0.002 f.sub.min                                                   s.sub.3 (variable)                                                                           0.783 f.sub.med                                                               1.201 f.sub.max                                                   r.sub.4 ' = +6.649                                                 L.sub.4                  d.sub.4  = 0.047                                                                         1.691 54.7                                              r.sub.4 " +0.561                                                                            s.sub.4  = 0.219                                                  r.sub.5 ' = -0.958                                                 L.sub.5 '                d.sub.5 ' = 0.047                                                                        1.620 60.3                                              r.sub. 5  = +0.815                                                 L.sub.5 "                d.sub.5 " = 0.145                                                                        1.805 25.4                                              r.sub.5 " = +16.823                                                                         1.289 f.sub.min                                                   s.sub.5 (variable)                                                                           0.359 f.sub.med                                                               0.089 f.sub.max                                                 s.sub.3 + s.sub.5 + s.sub.6 = 1.316                                  ______________________________________                                    

This objective has focal lengths f_(min) = 0.387 and f_(max) = 2.323.

FIG. 4 shows a further attachment with components 1C and IIC differing from components IB and IIB only in their dimensions as given in the following Table:

                  TABLE C                                                          ______________________________________                                                                n.sub.d                                                                              ν.sub.d                                        ______________________________________                                                     r.sub.1 ' = +6.299                                                 L.sub.1 '                d.sub.1 ' = 0.100                                                                        1.805 25.4                                              r.sub.1  = +1.992                                                  L.sub.1 "                d.sub.1 " = 0.384                                                                        1.620 60.3                                              r.sub.1 " = ∞                                                                         s.sub.1  = 0.005                                                  r.sub.2 ' = +2.790                                                 L.sub.2                  d.sub.2  = 0.130                                                                         1.658 50.9                                              r.sub.2 " = +5.120                                                                          s.sub.2  = 0.005                                                  r.sub.3 ' = +1.906                                                 L.sub.3                  d.sub.3  = 0.254                                                                         1.658 50.9                                              r.sub.3 " = +8.868                                                                          0.040 f.sub.min                                                   s.sub.3 (variable)                                                                           0.880 f.sub.med                                                               1.332 f.sub.max                                                   r.sub.4 ' =  +6.205                                                L.sub.4                  d.sub.4  = 0.045                                                                         1.691 54.7                                              r.sub.4 " = +0.524                                                                          s.sub.4  = 0.204                                                  r.sub.5 ' = -0.894                                                 L.sub.5 '                d.sub.5 ' = 0.045                                                                        1.620 60.3                                              r.sub.5  = +0.761                                                  L.sub.5 "                d.sub.5 " = 0.135                                                                        1.805 25.4                                              r.sub.5 " = +15.587                                                                         1.399 f.sub.min                                                   s.sub.5 (variable)                                                                           0.380 f.sub.med                                                               0.106 f.sub.max                                                 s.sub.3 + s.sub.5 + s.sub.6 = 1.462                                  ______________________________________                                    

In this instance, f_(min) = 0.359 and f_(max) = 2.666.

FIG. 5, finally, shows an attachment with components ID and IID which again differ from those of FIG. 3 only in their dimensions as listed below.

                  TABLE D                                                          ______________________________________                                                                n.sub.d                                                                              ν.sub.d                                        ______________________________________                                                     r.sub.1 ' = +6.032                                                 L.sub.1 '                d.sub.1 ' = 0.122                                                                        1.805 25.4                                              r.sub.1 = +1.993                                                   L.sub.1"                 d.sub.1 " = 0.478                                                                        1.620 60.3                                              r.sub.1 " = ∞                                                                         . -              s.sub.1  = 0.005                                 r.sub.2 ' = +2.924                                                 L.sub.2                  d.sub.2  = 0.159                                                                         1.652 50.9                                              r.sub.2 " = +6.172                                                                          s.sub.2  = 0.005                                                  r.sub.3 ' = +2.094                                                 L.sub.3                  d.sub.3  = 0.319                                                                         1.658 50.9                                              r.sub.3 " = +10.371                                                                         0.007 f.sub.min                                                   s.sub.3 (variable)                                                                           0.945 f.sub.med                                                               1.475 f.sub.max                                                   r.sub.4 ' = +6.979                                                 L.sub.4                  d.sub.4  = 0.050                                                                         1.691 54.7                                              r.sub.4 " = +0.516                                                                          s.sub.4  = 0.224                                                  r.sub.5 ' = -0.381                                                 L.sub.5 '                d.sub.5 ' = 0.050                                                                        1.620 60.3                                              r.sub.5  = +0.750                                                  L.sub.5 "                d.sub.5 " = 0.168                                                                        1.805 25.4                                              r.sub.5 " = +24.621                                                                         1.485 f.sub.min                                                   s.sub.5 (variable)                                                                           0.331 f.sub.med                                                               0.016 f.sub.max                                                 s.sub.3 + s.sub.5 + s.sub.6 = 1.497                                  ______________________________________                                    

Here, f_(min) = 0.338 and f_(max) = 3.141.

In each of the instances represented by Tables A - D, the objective has a relative aperture of 1:1.8 and an image diagonal of 0.354.

The nonillustrated mechanism for displacing the two shiftable components in a correlated manner, as indicated by dotted curves in FIG. 1, may comprise two telescopable lens barrels with camming slots penetrated by guide pins on these components as is well known per se, the lens barrels interfitting for joint rotation but with independent slidability of the barrel of lens L₆ in the wide-angle position whereby that lens may be axially shifted for focusing in a macro range, e.g. as known from commonly owned U.S. Pat. Nos. 3,773,402 and 3,891,304.

From the foregoing Tables the individual focal lengths of the various components can be calculated as follows:

    ______________________________________                                         component IA: f.sub.IA = +2.111                                                                 component IIA: f.sub.IIA = -0.612                             component IB: f.sub.IB  = +2.349                                                                component IIB: f.sub.IIB = -0.587                             component IC: f.sub.IC = +2.435                                                                 component IIC: f.sub.IIC = -0.548                             component ID: f.sub.ID = +2.619                                                                 component IID: f.sub.IID = -0.540                                    component III: f.sub.III = -1.855                                              component IV: f.sub.IV  = +1.142                                               component V:  f.sub.V  = +1.045                                         ______________________________________                                    

The varifocal front group consisting of components I-IV is afocal in each instance; thus, the width of the diaphragm space behind this group is immaterial. 

We claim:
 1. A lens assembly forming part of a varifocal optical system of the type wherein a front lens group constituted by two stationary positive components bracketing two axially shiftable negative components adjoins an axially fixed rear lens group of positive refractivity consisting of a plurality of air-spaced lens members, said lens assembly comprising:an axially shiftable negative lens L₆ constituting one of said negative components; an axially fixed positive lens L₇ constituting one of said stationary components; and two positive lenses L₈, L₉, a negative lens L₁₀ and another positive lens L₁₁ constituting said air-spaced lens members; said lenses L₆ - L₁₁ having radii of curvature r₆ ' - r₁₁ ", axial thicknesses d₆ - d₁₁, refractive indices n_(d) and Abbe numbers ν_(d) substantially as given in the following table along with air spaces s₉ - s₁₁ separating said lens members L₈ - L₁₁ :

    ______________________________________                                                                n.sub.d                                                                              ν.sub.d                                        ______________________________________                                                       r.sub.6 ' = -0.87                                                L.sub.6                   d.sub.6 = 0.05                                                                          1.78  44                                                  r.sub.6 " = -2.20                                                              r.sub.7 ' = +1.40                                                L.sub.7                   d.sub.7 = 0.12                                                                          1.69  55                                                  r.sub.7 " = -1.75                                                              r.sub.8 ' = +2.19                                                L.sub.8                   d.sub.8 = 0.11                                                                          1.74  45                                                  r.sub.8 " = -3.17                                                                          s.sub.9 = 0.03                                                     r.sub.9 " = +0.74                                                L.sub.9                   d.sub.9 = 0.12                                                                          1.74  45                                                  r.sub.9 " = ∞                                                                        s.sub.10 = 0.04                                                    r.sub.10 ' = -0.99                                               L.sub.10                  d.sub.10 =  0.35                                                                        1.85  24                                                  r.sub.10 " = +0.57                                                                         s.sub.11 = 0.06                                                    r.sub.11 ' = +1.69                                               L.sub.11                  d.sub.11 = 0.23                                                                         1.74  42                                                  r.sub.11 " = -0.59                                               ______________________________________                                    


2. A lens assembly as defined in claim 1, further comprising a prism with planar faces inserted between said positive lenses L₇ and L₈, said prism being separated from lens L₇ by an air space s₈ ' and from lens L₈ by an air space s₈ ", the numerical values of said air spaces s₈ ' and s₈ " together with the thickness d_(p), refractive index n_(d) and the Abbe number ν_(d) of said prism being substantially as follows:

    ______________________________________                                                             n.sub.d ν.sub.d                                         ______________________________________                                         s.sub.8 ' = 0.05                                                                           d.sub.p = 0.25                                                                               1.52      64                                         s.sub.8 " = 0.09                                                               ______________________________________                                    


3. The combination of a lens assembly as defined in claim 1 with a plurality of interchangeable sets of lenses constituting the other of said stationary components and the other of said axially shiftable components, said interchangeable sets complementing said lenses L₆ - L₁₁ to a varifocal objective with different ratios of maximum to minimum overall focal lengths.
 4. The combination deffined in claim 3 wherein said ratios are approximately 4:1, 6:1, 8:1 and 10:1.
 5. In combination, a lens assembly as defined in claim 1 and a set of lenses comprising first, second and third lens members L₁, L₂, L₃ constituting the other of said stationary components and fourth and fifth lens members L₄, L₅ '+L₅ " constituting the other of said axially shiftable components, said lens members L₁ - L₅ " having radii of curvature r₁ ' - r₅ ", axial thicknesses d₁ - d₅ ", refractive indices n_(d) and Abbe numbers ν_(d) substantially as given in the following table along with air spaces s₁, s₂ separating said lens members L₁, L₂, L₃, an air space s₄ separating said lens members L₄, L₅ '+L₅ " and the sum of air spaces s₃ +s₅ +s₆ separating said stationary and axially shiftable components:

    ______________________________________                                                                n.sub.d                                                                              ν.sub.d                                        ______________________________________                                                     r.sub.1 ' = +3.10                                                  L.sub.1                  d.sub.1  = 0.08                                                                          1.81  25                                                r.sub.1 " = +1.50                                                                           s.sub.1  = 0.08                                                   r.sub.2 ' = +1.62                                                  L.sub.2                  d.sub.2  = 0.25                                                                          1.60  61                                                r.sub.2 " = ∞                                                                         s.sub.2  = 0.01                                                   r.sub.3 ' = +1.62                                                  L.sub.3                  d.sub.3   = 0.25                                                                         1.60  60                                                r.sub.3 " = ∞                                                            r.sub.4 ' = +3.76                                                  L.sub.4                  d.sub.4  = 0.05                                                                          1.71  54                                                r.sub.4 " = +0.57                                                                           s.sub.4  = 0.17                                                   r.sub.5 ' = -0.72                                                  L.sub.5 '                d.sub. 5 ' = 0.05                                                                        1.62  53                                                r.sub.5 = +0.88                                                    L.sub.5 "                d.sub.5 " = 0.13                                                                         1.81  25                                                r.sub.5 " = -6.45                                                            s.sub.3 + s.sub.5 + s.sub.6 = 1.11                                   ______________________________________                                    


6. In combination, a lens assembly as defined in claim 1 and a set of lenses comprising first, second and third lens members L₁ '+L₁ ", L₂, L₃ constituting the other of said stationary components and fourth and fifth lens members L₄, L₅ '+L₅ " constituting the other of said axially shiftable components, said lens members L₁ ' - L₅ " having radii of curvature r₁ ' - r₅ ", axial thicknesses d₁ ' - d₅ ", refractive indices n_(d) and Abbe numbers ν_(d) substantially as given in the following table along with air spaces s₁, s₂ separating said lens members L₁ '+L₁ ", L₂, L₃, an air space s₄ separating said lens members L₄, L₅ '+L₅ " and the sum of air spaces s₃ +s₅ +s₆ separating said stationary and axially shiftable components:

    ______________________________________                                                                n.sub.d                                                                              ν.sub.d                                        ______________________________________                                                     r.sub.1 ' = +6.08                                                  L.sub.1 '                d.sub.1 ' = 0.10                                                                         1.81  25                                                r.sub.1  = +1.92                                                   L.sub.1 "                d.sub.1 " = 0.37                                                                         1.62  60                                                r.sub.1 " = ∞                                                                         s.sub.1  = 0.01                                                   r.sub.2 ' = +2.69                                                  L.sub.2                  d.sub.2  = 0.10                                                                          1.66  51                                                r.sub.2 " = +4.94                                                                           s.sub.2  = 0.01                                                   r.sub.3 ' = +1.84                                                  L.sub.3                  d.sub.3  = 0.22                                                                          1.66  51                                                r.sub.3 " = +8.55                                                              r.sub.4 ' = +6.65                                                  L.sub.4                  d.sub.4  = 0.05                                                                          1.69  55                                                r.sub.4 " = +0.56                                                                           s.sub.4  = 0.22                                                   r.sub.5 ' = -0.96                                                  L.sub.5 '                d.sub.5 ' = 0.05                                                                         1.62  60                                                r.sub.5  = +0.82                                                   L.sub.5 "                d.sub.5 " = 0.15                                                                         1.81  25                                                r.sub.5 " = +16.32                                                           s.sub.3 + s.sub.5 + s.sub.6 = 1.32                                   ______________________________________                                    


7. In combination, a lens assembly as defined in claim 1 and a set of lenses comprising first, second and third lens members L₁ '+L₁ ", L₂, L₃ constituting the other of said stationary components and fourth and fifth lens members L₄, L₅ '+L₅ " constituting the other of said axially shiftable components, said lens members L₁ ' - L₅ " having radii of curvature r₁ ' - r₅ ", axial thicknesses d₁ ' - d₅ ", refractive indices n_(d) and Abbe numbers ν_(d) substantially as given in the following table along with air spaces s₁, s₂ separating said lens members L₁ "+L₁ ", L₂, L₃, an air space s₄ separating said lens members L₄, L₅ '+L₅ " and the sum of air spaces s₃ +s₅ +s₆ separating said stationary and axially shiftable components:

    ______________________________________                                                                n.sub.d                                                                              ν.sub.d                                        ______________________________________                                                     r.sub.1 ' = +6.30                                                  L.sub.1 '                d.sub.1 ' = 0.10                                                                         1.81  25                                                r.sub.1  = +1.99                                                   L.sub.1 "                d.sub.1 " = 0.38                                                                         1.62  60.3                                              r.sub.1 " = ∞                                                                         s.sub.1  = 0.01                                                   r.sub.2 ' = +2.79                                                  L.sub.2                  d.sub.2  = 0.13                                                                          1.66  51                                                r.sub.2 " = +5.12                                                                           s.sub.2  = 0.01                                                   r.sub.3 ' = +1.91                                                  L.sub.3                  d.sub.3  = 0.25                                                                          1.66  51                                                r.sub.3 " = +8.87                                                              r.sub.4 ' = +6.21                                                  L.sub.4                  d.sub.4  = 0.05                                                                          1.69  55                                                r.sub.4 " = +0.52                                                                           s.sub.4  = 0.20                                                   r.sub.5 ' = -0.89                                                  L.sub.5 '                d.sub.5 ' = 0.05                                                                         1.62  60                                                r.sub.5  = +0.76                                                   L.sub.5 "                d.sub.5 " = 0.14                                                                         1.81  25                                                r.sub.5 " = +15.59                                                           s.sub.3 + s.sub.5 + s.sub.6 = 1.46                                   ______________________________________                                    


8. In combination, a lens assembly as defined in claim 1 and a set of lenses comprising first, second and third lens members L₁ '+L₁ ", L₂, L₃ constituting the other of said stationary components and fourth and fifth lens members L₄, L₅ '+L₅ " constituting the other of said axially shiftable components, said lens members L₁ ' - L_(5") having radii of curvature r₁ ' - r₅ ", axial thicknesses d₁ ' - d₅ ", refractive indices n_(d) and Abbe numbers ν_(d) substantially as given in the following table along with air spaces s₁, s₂ separating said lens members L₁ '+L₁ "L₂, L₃ an air space s₄ separating said lens members L₄, L₅ '+L₅ " and the sum of air spaces s₃ +s₅ +s₆ separating sai stationary and axially shiftable components:

    ______________________________________                                                                n.sub.d                                                                              ν.sub.d                                        ______________________________________                                                     r.sub.1 ' = 6.03                                                   L.sub.1 '                d.sub.1 ' = 0.12                                                                         1.81  25                                                r.sub.1  = 1.99                                                    L.sub.1 "                d.sub.1 " = 0.48                                                                         1.62  60                                                r.sub.1 " = ∞                                                                         s.sub.1  = 0.01                                                   r.sub.2 ' = 2.92                                                   L.sub.2                  d.sub.2  = 0.16                                                                          1.65  51                                                r.sub.2 " = 6.17                                                                            s.sub.2  = 0.01                                                   r.sub.3 ' = 2.09                                                   L.sub.3                  d.sub.3  = 0.32                                                                          1.66  51                                                r.sub.3 " = 10.37                                                              r.sub.4 ' = 6.98                                                   L.sub.4                  d.sub.4  = 0.05                                                                          1.69  55                                                r.sub.4 " = 0.52                                                                            s.sub.4  =  0.22                                                  r.sub.5 ' = -0.88                                                  L.sub.5 '                d.sub.5 ' = 0.05                                                                         1.62  60                                                r.sub.5  = 0.75                                                    L.sub.5 "                d.sub.5 " = 0.17                                                                         1.81  25                                                r.sub.5 " = 24.62                                                            s.sub.3 - s.sub.5 - s.sub.6 = 1.50                                   ______________________________________                                     